Overview

TeSR™-E8™ is a feeder-free, animal component-free culture medium for human embryonic stem (ES) cells and human induced pluripotent stem (iPS) cells. It is based on the E8 formulation developed by the laboratory of Dr. James Thomson (University of Wisconsin-Madison), the lead research group behind the design of mTeSR™1, the most widely published feeder-free culture medium for pluripotent stem cells.

Like mTeSR™1, TeSR™-E8™ medium is made with the highest level of quality and care. It contains only the essential components required for maintenance of ES and iPS cells, providing a simpler medium for the culture of pluripotent stem cells. TeSR™-E8™ can be used with Corning® Matrigel® hESC-qualified matrix, or, for a completely defined xeno-free system, Vitronectin XF™.

Advantages:

• Simplified, low-protein formulation based on the popular mTeSR™1 medium for maintaining human ES and iPS cells

Product Applications

This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.

Data and Publications

Publications

Abstract

Human pluripotent stem cells (PSCs) exist in naive and primed states and provide important models to investigate the earliest stages of human development. Naive cells can be obtained through primed-to-naive resetting, but there are no reliable methods to prospectively isolate unmodified naive cells during this process. Here we report comprehensive profiling of cell surface proteins by flow cytometry in naive and primed human PSCs. Several naive-specific, but not primed-specific, proteins were also expressed by pluripotent cells in the human preimplantation embryo. The upregulation of naive-specific cell surface proteins during primed-to-naive resetting enabled the isolation and characterization of live naive cells and intermediate cell populations. This analysis revealed distinct transcriptional and X chromosome inactivation changes associated with the early and late stages of naive cell formation. Thus, identification of state-specific proteins provides a robust set of molecular markers to define the human PSC state and allows new insights into the molecular events leading to naive cell resetting.

Abstract

Recently, many hurdles and limitations for production of clinically applicable iPSC derivatives have been overcome. Transgene-free iPSCs can be efficiently derived from easily accessible cell sources such as blood. Here we describe the generation of transgene-free hiPS cells from cord blood derived CD34+ cells, reprogrammed using CytoTune™ Sendai reprogramming vectors. CD34+ cell isolation, cultivation, reprogramming and establishment of resulting hiPSC lines were performed under the exclusive usage of animal-derived component-free (ADCF) materials and components.

Quality Statement:

STEMCELL TECHNOLOGIES INC.’S QUALITY MANAGEMENT SYSTEM IS CERTIFIED TO ISO 13485. PRODUCTS ARE FOR RESEARCH USE ONLY AND NOT INTENDED FOR HUMAN OR ANIMAL DIAGNOSTIC OR THERAPEUTIC USES UNLESS OTHERWISE STATED.